Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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FLASHING AND COUNTERFLASHING
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates in general to skylights and
other roof openings and, more particularly, to an improved
technique for sealing a skylight or other cover about the
opening in a roof.
2. Discussion of Related Art
Roofs are constructed with openings therethrough for a
variety of reasons. For example, a skylight cover may be
used to cover a roof opening to provide sunlight and possibly
ventilation. Other roof covers include fire escape covers,
roof maintenance access covers, and heating or ventilated
exhaust or intake covers. Such covers may be transparent or
opaque and may or may not be capable of opening to allow air
to flow into the building or to provide access to the roof.
These roof openings are often defined by a curb. A
principle objective of such roof designs is to ensure proper
weather sealing of the curb. To this end, roofing membranes
have been used to seal the curb, and flashings have been used
to direct water away from the curb. For example, U.S. Pat.
No. 4,941,300, dated July 17, 199~, illustrates a sealing
system using a roofing membrane about a curb.
An object of the present invention is to provide an
improved sealing apparatus and method, particularly adapted
for sealing skylights or other covers to a curb.
'I SUMMARY OF THE INVENTION
To accomplish the foregoing and other objects, features
and advantages of the invention, there is provided an
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apparatus for sealing a cover about an opening of a building
and a method for using such an apparatus. The apparatus is
attachable to the cover and includes a perimeter sill,
providing a downwardly facing channel. A counterflashing
piece is inserted into the channel and securely retained
there by a retaining mechanism, such as a rod, in conjunction
with the shape of the channel. The counterflashing has a
section such as a hooked end, for contacting a curb ~f the
building to provide a sealing point. The upper, inserted
edge of the counter~lashing may be flat, or it may be hooked
to assist in its retention in the channel.
Several counterflashings may be used in overlapping
relation to surround the cover. Each counterflashing may
have a straight section for sealing an edge of the cover and
include a bend or curved section to wrap around a corner of
the curb and overlap an adjacent counterflashing.
Alternatively, each counterflashing may have a straight
section only, and separate corner pieces may be used to
overlap adjacent straight sections.
One aspect of the invention relates to a method of
sealing an opening of a building by using such an apparatus.
The method includes the following steps: securing a
perimeter sill about the opening of the building; attaching
the cover to the perimeter sill; inserting a counterflashing
piece into a channel defined by the sill to engage a
retaining mechanism of the sill; and pulling the
counterflashing to position the retaining mechanism in the
channel to cause the counterflashing to be securely held, the
counterflashing having a section to contact a curb of the
building.
~RIEF DESCRIPTION OF THE DRAWINGS
Numerous other objects, feat~res, and advantages of the
invention should now become apparent upon a reading of the
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following detailed description taken in conjunction with the
accompanying drawing, in which:
FIG. 1 is a perspective view showing the preferred
embodiment of the present invention;
FIG. 2 is a fragmentary cross sectional view illustrating
the manner in which the skylight, flashing and roof opening
are arranged;
~ IG. 3 is a cross sectional view through a perimeter sill
of a complete skylight unit, -illustrating the counterflashing
assembly and rigid perimeter sill;
FIG. 4A is a cross-sectional view through the perimeter
sill, showing greater detail of the flashing, rod, and
perimeter sill;
~ IG. 4B is a cross sectional view through the perimeter
sill, showing the interlocking nature of the flashing, rod,
and perimeter sill;
FIG. S is a perspective view, showing the installation of
the counterflashing;
FIG. 6 is a fragmentary perspective view, illustrating
the installation of the counterflashing;
FIG. 7 is an inside exploded perspective view of a
counterflashing corner illustrating the overlap of the two
ends of the counterflashing at the curb frame corner;
FIG. 8 is an inside perspective view of an assembled
counterflashing corner illustrating the rod placement in
connection with the counterflashing;
FIG. 9 is a cross-sectional view through the perimeter
sill of a completed skylight illustrating the counterflashing
corner taken along line 9-9 of FIG. 2;
FIG. 10 is a perspective view of an alternate embodimen~
of the present invention, illustrating the placement of
pre-formed corn~r pieces and corner flashing;
~ IG. 11 is a fragmentary cross-sectional view,
illustrating the arrangement of the perimeter sill,
counterflashing, and skylight taken along line 11-11 of FIG.
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10;
FIG. 12 is an exploded cross-sectional view through the
perimeter sill illustrating the attachment of the
counterflashing, skylight and perimeter sill;
FIG. 13A is an exploded cross sectional view showing the
relationship of the rod and the counterflashing when
installed; and
FIG. 13B is an exploded cross-sectional view further
illustrating the relationship between the rod and
counterflashing when installed.
D~:TAI LED DESCRI PT ION
Figs. 1-9 show a preferred embodiment of the present
invention. An alternative embodiment of the invention is
illustrated in Figs. 10-13.
Fig. 1 is a perspective view of a preferred embodiment,
illustrating a cover 2 secured over a curb 3 defining a roof
opening. The roof and curb are covered with a roof membrane
52 (see also Fig. 2). The cover 2 is a skylight by way of
example only.
As shown in Figs. 1 and 2, the cover 2 is sealed relative
to the curb 3 with counterflashing pieces 48. The
counterflashing 48 is preferably constructed of aluminum, but
may be constructed of other materials, as well. The
counterflashing 48 provides an easy-to-use and
easy-to-install sealing technique and apparatus. The
installer needs only one size counterflashing piece, which
may be trimmed and formed on site to fit the particular
application. The method of installation is simple and
relatively inexpensive, requiring relatively few pieces.
As seen in ~igs. 2-4, the membrane 52 may be attached to
the curb using a wooden nailer 18 and a reinforcing tack 58
and nail 56. Other adhesive techniques may be used to secure
a membrane about the roof and curb.
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Referring to Figs. 2 and 3, the exemplary cover 2
includes an inner dome 24 and an outer dome 26, both of which
may be acrylic, for example. The inner dome 24 includes a
flange 25 that rests upon a glazing gasket 28. Vertical leg
35 of a sill 10 is used to position the combination of gasket
28 and dome 24. The gasket 28 seals the inner dome 24 in
relation to the perimeter sill 10. The outer dome 26
includes a flange 27 that is separated from flange 25 by
gaskets 30A and 2~. ~lange 27 is separated from horizontal
leg 34 of frame 32 by gasket 30B. Domes 24 and 26 are held
in place by clamping sill 10 and frame 32 together with
screws 38. Frame 32 may be made of PVC, aluminum, or the
like.
As previously stated, the opening of the building is
defined by a curb. The curb 3 may be constructed of plastic
foam 54, such as polyisocyanurate, and a frame 16 made of
aluminum or other rigid material is used for structural
support. The frame 16 may be secured to roof 62 with
fasteners 64. Other curb constructions may be used.
Referring to Figs. 3-4B, a perimeter sill 10 is shown.
This sill may be extruded aluminum, for example. The sill 10
includes a condensation gutter 14 formed from a bottom wall
12 and an inner side wall 12a. The sill 10 rests on an upper
end of curb 3 and is sealed, relative to the curb 3, by a
butyl rubber gasket 20. The perimeter sill 10 is secured to
the wooden nailer 18 by fasteners 22.
Fig.-4A more particularly shows a portion of the
perimeter sill 10, which includes a vertical flashing tab 42
and a flashing clip 44 having a recess 44A. The tab 42 and
clip 44 together, define a channel. A retaining mechanism,
such as rod 46, is positioned in the channel defined by clip
44 and tab 42.~lThis rod may be made of PVC, for example, and
is preferably inserted in the channel during manufacturing.
For example, the rod 46 may be inserted longitudinally into
the channel. As further discussed below each section of the
sill may then be mitred and joined at the mitre joints. One
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rod 46 runs along each edge of the sill 10 surrounding curb 3.
At installation, the cover, which is attached to the sill
as discussed abo~e is placed over the opening. Then, the
counterflashing 48 is inserted. A counterflashing is placed
flush against a corresponding flashing tab 42. As the
counterflashing 48 is inserted, as shown by arrow A, the
corresponding retaining rod 46 is caused to move toward
recess 44A, as shown by arrow B. Referring to Fig. 4B, the
counterflashing 48 is moved upwardly to point 44C and then
downwardly, as shown by arrow C. The downward movement
causes rod 46 to also move downwardly, as shown by arrow D,
due to the forces of gravity and friction. The rod 46 is
caused to move from recess 44A towards a narrowed opening 44B
of the channel, until the downward pulling causes
counterflashing to be securely held. A section of the
counterflashing, such as a hooked end 50, is thus caused to
contact the exterior surface of curb 3. The dimensions of
the hooked end may also ensure a spacing between the
counterflashing 48 and the exterior surface. The spacing, in
turn, provides an air gap and also allows space for the
fastener 56 and clip S8. In addition, the end 50 provides a
seal at point 50A. The process is repeated for each
counterflashing 48 needed by the application for example,
four counterflashing may be needed for a rectangular cover.
Now also referring to Fig. 1, the frame 32 is joined at
each miter 70. The perimeter sill and glazing gasket are
also preferably formed as an extrusion. As such, the
individual parts once mitred may be heat or tig welded to
form a rectangular perimeter sill and a rectangular frame 32.
Figs. 12, 13A, and 13B show another embodiment of the
counterflashing. The alternative counterflashing 84 has a
retaining hook 86 on its upper edge in addition to a hooked
end 88 on its lower edge. The retaining hook 86 is
configured such that, when the counterflashing piece 84 is
pushed between flashing clip 90 and flashing tab 92, i.e.
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during installation, the retaining rod 94 is pushed out of
the way, as indicated by arrow E, into the retaining rod
recess 96. The retaining hook 86 is also shaped such that it
catches and downwardly pulls rod 94, when the counterflashing
84 is downwardly pulled, as indicated by arrow C. Pressure
from the retaining clip 90 pushing back against the retaining
rod 94 prevents the counterflashing hook 86 from being able
to slip.
More than one side of the cover 2 may need to be sealed.
As such, the corners of the cover 2 are also desirably
sealed. Figs. 5-9 show a first embodiment of the invention
for providing a sealing contact at the corners. Four
counterflashing pieces 48 have a curved end 72A and a
straight end 72B. The curved end 72A of one counterflashing
overlaps with the straight end 72B of an adjacent
counterflashing. Preferably, the curved end 72A is
exteriorly placed relative to the adjacent straight end 72B.
Because the counterflashing 48 is made of materials such as
PVC or aluminum, counterflashing 48 may be adjustably flexed
to ease installation. As seen in Figs. 7 and 8, the curved
end 72A of the counterflashing 48 does not have a hooked end
50 on its lower edge 72C. This allows for overlapping of the
curved end 72A and the straight end 72B without the hooked
ends interfering with each other. Fig. 9 illustrates a cross
sectional view of a corner, including counterflashing
components, along line 9-9 of Fig. 2.
Figs. 10 and 11 show another embodiment for sealing
corners of cover 2. Among other things, these figures show
that the invention may be utilized with different roofs an
curbs 3 than that previously discussed. For example, Figs.
10 and 11 show the curb on an inclined roof using shingles
3B, as opposed to rubber membrane 52. In addition, as more
particularly shown in Fig. 11, the counterflashing 78 seals
against a flashing piece 3a, not a membrane 52.
In this embodiment, the counterflashing pieces 7~ are
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straight, not curved at their ends. The lower edge of the
straight counterflashing pieces 78 have a hooked end 50 for
sealing, similar to that previously described. Four straight
counterflashing pieces 78 are used to seal the illustrated
cover 2. Likewise, four segments of retaining rod 46 are
used, one for each straight counterflashing 78. Unlike the
prior embodiment, four corner counterflashing pieces 82 are
used, one for each corner of the cover 2.
The corners 82 are inserted after the straight
counterflashing pieces 78. Each corner 82 overlaps ends of
adjacent straight pieces 78 by a few inches. Unlike the
previous embodiment, the corner pieces 82 have a hooked end
50 on both lower edges 82A and 82B for sealing against the
flashing piece 3A, or against a rubber membrane, if
appropriate. When installed, the hooked end 50 of the corner
82 fits into the side of the hooked end 50 of the straight
counterflashing 78.
Having now described certain embodiments of the present
invention, it should now be apparent to those skilled in the
art that numerous other embodiments and modifications thereof
are contemplated as falling within the scope of the present
invention as defined by the applied claims.